Although it took me a while to get around to reading it, this now out-of-publication book is one I highly recommend checking out at your local library if you're so inclined, or you can find it used at online bookstores, too. Just what is Invisible Frontiers all about? Not really a topic I expected to find terribly interesting reading, but the story turned out to be one of the most interesting stories which just happened to chronicle the development of synthetic "human" insulin back in the late 1970's to the early 1980's. In retrospect, it seems only fitting that this true story occurred at the very beginning of the Reagan Era, as the prevailing attitudes of the time produced the hit television show Dynasty, gave birth to Madonna as "the Material Girl" and, of course, characters from the movie Wall Street like the villainous Gordon Gekko who proclaimed "Greed is good" seemed to define that era. But what is most interesting is that those attitudes evidently infected the normally conservative and upstanding world of science, too.

My reason for reviewing this book now, aside from the fact that I just finished it, is because the end of the month (on January 28) will mark the 21st anniversary of the day Genentech was incorporated as a Delaware corporation. It was indeed interesting to examine that company's role was in diabetes care and treatment, and let's just say, the genuine facts are far more interesting than what I've read in the press or from PR departments!

First, some background. A few weeks ago (January 18, 2008, to be exact), I bookmarked an interesting post from Dr. Bill Quick's SharePosts at MyDiabetesCentral.com. Some of you may be familiar with another diabetes authority, David Mendosa, who also posts regularly at the same website. Dr. Quick's post was entitled "Where did beef and pork go?" and Dr. Quick mentioned that he had received an e-mail inquiring about the insulin which served millions of patients quite well for over 75 years.

Dr. Quick appropriately referred the patient to the U.K.'s Insulin Dependent Diabetes Trust for more information on the subject, which was indeed an excellent recommendation. But Dr. Quick also pointed out "The writer has some good questions, but sadly, has some misinformation mixed in." Dr. Quick noted that some heart medications had been discontinued, but I feel compelled to respond because Dr. Quick also has some misinformation in his own response to the patient's question, perhaps because he has bought into the pitch from the proponents of biotechnology hook, line and sinker? I cannot comment on that.

But Dr. Quick wrote "To get back to insulin: why did pork and beef insulin disappear? Two reasons that I'm aware of: purity, and production cost." He later adds "And it's my understanding that the production costs for extracting animal-sourced insulin were rising, as the production costs for making semisynthetic human insulin have fallen, so economically, it's cheaper to make insulin by semisynthetic methods." I should also note that insulin made by recombinant DNA is not semisynthetic, it is purely, 100% synthetic. The insulin you buy from your local pharmacy in the U.S. has never seen a pancreatic beta cell before. And while it may have been just like someone's human body once produced, it is not necessarily just like my or your human body once made, as the manufacturers do not use my personal DNA (or yours) in its production.

Anyway, while these reasons certainly sound logical, indeed after 26 years or so, that's what the manufacturers and their sales reps have been drilling into the heads of doctors about their genetically-engineered synthetic insulin for decades now. The only problem is one I have noted before: it is very selective disclosure of the truth, in effect misrepresenting that data to present the truth in a way that benefits one party more than the other. They aren't exactly lying about the purity, but they are making it sound like the old stuff was completely full of garbage, which wasn't the case at all.

Dr. Quick is right when he notes that the source for beef and pork insulin products were extracted from pancreases from cows and pigs used in meat production, but to state that the insulin that was made in that manner was somehow "impure" is categorically false, at least by the time synthetic insulin was introduced. A friend of mine has noted that the introduction of chromatographic gels and high-pressure liquid chromatography (HPLC) equipment saw "pure" insulin undergo even more purification, so that by the late 1970's insulin marketers could display "highly purified" on their products without invoking any claims of false labeling. As a matter of fact, purified animal insulins ultimately achieved a purity rate of 99%. Ironically, even with the use of today’s HPLC techniques, synthetic "human" insulin can only advertise a purity measure of 97%!

Also, in respect of their influence on insulin pharmacokinetics, moderate concentrations of certain insulin antibodies may, in fact, be of positive advantage to all diabetics without endogenous insulin secretion (e.g. people with type 1 diabetes) because insulin binding antibodies effectively increase the insulin's clearance rate and distribution space and therefore help to prolong its pharmacological and biological half lives. [Gray RS, Cowan P, et al., Influence of insulin antibodies on pharmacokinetics and bioavailability of recombinant human and highly purified beef insulins in insulin dependent diabetics. Br Med J (Clin Res Ed). 1985 Jun 8;290(6483):1687-91. See also here] Dr. Quick is right that the level of purity increased steadily over the years, but putting things in perspective, it should be noted that by the late 1970's, pork insulin being sold was 99% pure, and therefore was no less "pure" than today's synthetic insulin.

Consider an excerpt from Invisible Frontiers:

Dennis Kleid [one of Genentech's founder's] vividly recalls the moment when some long-cherished conceits about the uniqueness of genetically engineered insulin began to crumble in his own mind. It came during a trip to Indianapolis in December 1979, when the seasoned hands at Eli Lilly and Company showed the visiting upstart cloners through the insulin plant and explained to them how insulin was prepared the old-fashioned way.

"We were under the impression that it was impure and there was crap in it and stuff like that," Kleid remembers. "But that stuff was crystallized two times in the process. It was incredibly pure stuff. And there were only a few parts per million of contaminants. That was a real eye-opener. They were not making crap. Maybe they used to. But they certainly, in the last few years were not making it. And they impressed upon us very, very clearly that this [human insulin] was going to be no advantage at all." The newer way of making porcine insulin did not prompt allergic reactions, the biologists were told, and Lilly had enough glands to last for a long time.

As the tour of the facilities continued, the complicated economics of insulin production became clear as well. The Genentech scientists viewed a vault filled with vials of insulin. They were shown a freight car full of frozen pancreases, fresh from the stockyards, 25 cents per gland, shipped by the ton. They were shown where the glands were ground up prior to the extraction and purification of insulin. The recombinant DNA alternative was elegant and less messy, but not necessarily simpler and, more important, not necessarily cheaper, despite all the persistent suggestions, dating back to the ferocious public debates on recombinant DNA, that it might be.

Hmmmm, so there we have an admission from one of Genentech's founders that he himself was sorely mistaken about the quality of animal insulin sold by the early 1980's, and on top of that, he also notes that the process they had developed was not necessarily any cheaper. More on the cost issue in a minute.

It's worth acknowledging that some people did have allergies to animal insulin. Some have estimated that may have been as much as 10%, largely with beef insulin, which differs from human by just 3 amino acids (not dramatically different in that it has a comparable number of "different" amino acids that Lantus, Novolog/Novorapid, Levemir or Apidra have from human insulin). And before you reach the conclusion about how much better the new stuff is, you should also know that it is seldom disclosed that some 4% of people with type 1 diabetes also experience severe allergic reactions to synthetic "human" insulin, a severe form of lipodystrophy even though they do not have physical manifestations of the metabolic syndrome or lipodystrophy. Others have routinely complained about problems related to hypoglycemia unawareness with the synthetic insulin, which was actually scientifically validated in the early trials undertaken by Lilly in Germany, but somehow never managed to warrant further investigation by regulators.

The book also interviewed Dr. Rachmiel Levine -- a key player in the development of biosynthetic insulin from his work at City of Hope Medical Center near Los Angeles. In 1985, Dr. Levine was asked to respond to some of his major predictions made 7 years earlier about genetically-engineered insulin and how his predictions had panned out:

Is human insulin cheaper?

"No," replied Levine, "that hasn't turned out to be the case yet." At that point, perhaps the only major difference between human insulin by recombinant DNA and purified pork preparations was price: the porcine insulin cost less than Humulin. Recently [circa 1987], the price differential has vanished, according to diabetologist Dr. Jay Skyler, "and purified pork is essentially dead as a product."

Finally, has human insulin alleviated the problem of supply?

"Well," Levine answered, "we haven't reached the stage where it needs alleviation. But one can never tell."

The book continues to look back on the development:

The jury is still out, however, on any advantages of human insulin over purified pork preparations. Dr. Mayer Davidson, director of the Diabetes Center at Cedars-Sinai Medical Center in Los Angeles, reflects a general sentiment among clinicians when he says, "So far, I don't think it's been a big breakthrough." Dr. Andrew Drexler, of New York University Medical Center agrees, saying, "As a general phenomenon, we all see it as a minor, incremental improvement."

Some observers doubt that the price will ever drop significantly. Why? "It's called an oligopoly," says analyst Scott R. King [formerly] of Montgomery Securities [which was acquired by NationsBank in 1997, now known as Bank of America Corp.] in San Francisco. [Incidentally, Scott R. King is not the same guy as the editor of Diabetes Health magazine]

Although not mentioned by Dr. Quick in his post, another element that is frequently mentioned about that time was that the rush to create insulin via recombinant DNA technology was driven by a looming shortage of animal pancreases. Supposedly, people weren't eating as much meat, which meant fewer pancreases, therefore the supply was going to run out.

Indeed, Dr. Irving S. Johnson, who was the Vice President of Research at Lilly Research Laboratories back in the mid-1970's and was one of the people at the company who decided to hold the now-(in)famous seminar on the topic of making insulin by genetic engineering (its 16th symposium) back in May 1976, one which the scientists from Genentech happened to attend. Several years later, Dr. Johnson wrote an article entitled "Human Insulin from Recombinant DNA Technology" which was published in the journal Science on February 11, 1983. There is a noteworthy excerpt from that publication, too:

In the early 1970's we began to be concerned about a possible shortage of insulin. Until now, the world's insulin needs have been derived almost exclusively from pork and beef pancreas glands, which were collected as by-products from the meat industry. This supply changes with the demand for meat and is not responsive to the needs of the world's diabetics. Indeed, from 1970 to 1975, the supply of pancreas glands in the United States declined sharply (1) and remained on a plateau at that lower level in succeeding years. There is no accurate way to predict availability of future supplies of glands, although we predicted that the demand for insulin would continue to increase. Our concern was whether or not there would be a time when the supply of bovine and porcine pancreas glands might not be sufficient to meet the needs of insulin-dependent diabetics.

That certainly sounds like a legitimate concern, right? Indeed, before I edited the Wikipedia entry for "recombinant DNA", here is what the entry originally stated:

In the 1920s, there was no known way to produce insulin. The problem was solved, temporarily at least, when it was found that insulin from the pancreas of a pig could be used in humans. This method was the primary solution for diabetes until about six years ago. The problem with insulin production was raised again: There were not enough pigs to keep the supply of insulin intact. Scientists needed to devise another way. This is where one of the biggest breakthroughs in recombinant DNA technology happened.

However, Invisible Frontiers also discloses the truth: that the people at Lilly had screwed up their forecasts by confusing kilograms with pounds! Here is that excerpt:

To hear some tell it, there was never a supply problem with pig pancreases in the first place. "The whole thing was rubbish," insists Paul Haycook, research director at Squibb-Novo. "There was never a shortage of pig pancreases, and there never will be." Haycook blames the scare on a miscalculation by an official who had prepared projections for the Food and Drug Administration - a mistake based, ironically, on a mistake in an Eli Lilly training brochure which confused kilograms with pounds. Instead of projecting an insulin shortage by 1982, a revised FDA report predicted adequate insulin supplies through the year 2006. In any event, there is never likely to be a shortage caused by a scarcity of pancreases.

You can't make stuff like this up! In fact, by 1987, Genentech was earning $5 million in licensing fees from Lilly. And by then, Lilly had already spent $40 million to build a new plant in Indianapolis to make the stuff. There was no turning back.

Again, Invisible Frontiers addresses the response, which was not exactly one where patients were beating their doctors' doors down to get the synthetic "human" insulin:

A sampling of initial reaction shows that Humulin was greeted more as a technological than a medical breakthrough, and that this sentiment was building even before the drug reached pharmacies. As early as 1980, the British magazine New Scientist reported, "Other big chemical manufacturers predict that Eli Lilly's massive $40 million investment in two plants to make insulin - may be a classic example of backing a loser."

And the Economist [concluded]: "The first bug-built drug for human use may turn out to be a commercial flop. But the way has now been cleared-and remarkably quickly, too-for biotechnologists with interesting new products to clear the regulatory hurdles and run away with the prizes."

So, there you have it. The real story, told in gory details in the book "Invisible Frontiers: The Race to Synthesize A Human Gene". It was all about a few scientists from UCSF who were competing with a handful of other scientists from Harvard and University of Chicago who were in a race to grab the gold and glory before others got to it. They didn't care about people with diabetes, rather, the diabetes population was just a tool used to secure their wealthy retirement. And the product of their labor did not improve the lives of people with diabetes, either.

Some point to insulin analogs as an example of how genetic engineering has helped patients with diabetes, but as I noted in my 2007 Year-End Review, those don't deliver superior glycemic control yet they cost a lot more than regular insulin. I'll let you judge for yourselves, but lets just say this book was A True Story of Oversized Egos, Incredible Greed ... and Insulin!

6 comments:

Hi Scott, that's a great review. I would add that Robert Swanson, co-founder of Genentech, provided an interesting insight into the reasons why his company decided to zero in on insulin. After all, it's not like insulin wasn't already available, and at a very low cost. In an interview with Esquire magazine in 1984, Swanson said there were three main reasons why his company developed insulin: “I felt the first product should have an existing market," he said. "As a first product you really couldn't afford to have what they call a 'missionary' marketing effort" – that is, they weren’t developing this type of insulin to provide diabetics with a safer or more effective product. He went on to say that "… the economics of production would have to compare favourably to the way it is produced currently. It would also have to have a high value for low volume, so that you'd have a lower cost for plant and equipment." Insulin met all of these basic requirements. [Randall Rothenberg, “Robert A. Swanson, Chief Genetic Officer: He Masterminded Good Science into Big Industry”, Esquire December 1984]

Unfortunately, we are now saddled with a much more expensive product and one that is, for many, less effective and less safe.

I love how these so-called scientists risked the lives, health and safety of diabetic children (and the adults they would eventually or hopefully mature into ) as a 'ready-made market for a product that is less safe and less stable than the old stuff.

They could have used those great big scientific brains to help find a cure for us. Instead, they made money off the endless suffering that is Type 1 diabetes, its management and its complications. They wasted valuable money that might have gone towards real research into a real cure. All of them, including the founder of Genentech, should be lined up against a btick wall and shot for what they have done to us, our children and our health.

Awesome review, Scott!! Scary, scandalous and sobering -- but downright awesome! I'm a strong believer in Karma. Karma will not manifest in the form of evil...but I think it lends a helping hand to those who muscle for good in the world. For insulin-dependent diabetes -- that might be a reversal of fortune and return to the market of *natural-sourced* insulins. What's the harm in choice?